CN103466873A - Method for processing sewage with high-concentration phenol and ammonia - Google Patents
Method for processing sewage with high-concentration phenol and ammonia Download PDFInfo
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Abstract
The invention discloses a method for processing sewage with high-concentration phenol and ammonia. According to the method, ammonia, phenol and acid gases in sewage are eliminated, the processing effect is good, efficiency is achieved, and high performance cost ratio is achieved. Butyl acetate is used as extraction agents, the recovery rate is high, energy is saved, efficiency is high, and the performance cost ratio is high. Phenol concentration of the extracted sewage can be reduced to be smaller than the phenol concentration required by biochemical treatment water, separation is more thorough through a double-tower structure, and the defect of not thorough separation through a single tower is reduced, extraction in the counter-current extraction method is more efficient, separation is more thorough, and the method is worthy of popularization and application.
Description
Technical field
The present invention relates to a kind of processing coal chemical industrial waste water (containing coal tar sewage, coal gasification wastewater, coal upgrading sewage), relate in particular to the method for a kind of processing containing high-concentration phenol, ammonia sewage.
Technical background
Take coal as raw material through chemical process, make coal be converted into the fuel of gas, liquid, solid and other coals chemical processed and coal fabricated product process and be called Coal Chemical Industry.Can produce the more waste water containing phenol, ammonia and sour gas in the Coal Chemical Industry course of processing, take washing high-temperature coal air water as main.Must first take the chemical separating flow process to such waste water, remove wherein most phenol, ammonia, sour gas, just can send biochemical treatment to up to standard can the discharge.Yet most existence the in existing processing scheme: 1, deacidifying process is unreasonable, and the sour gas such as the carbonic acid gas of the ionic state of dissolving in waste water, hydrogen sulfide can not be converted into free state cost-effectively, residual too high; 2, deamination technological operation hidden danger is larger, now by most of technique, first waste water is carried out to extracting and dephenolizing, then carries out removing of ammonia in waste water.This method on the one hand in operating process because being rich in the pH of ammonia waste water 8, be unfavorable for the extraction of phenol; Can there is on the other hand the volatile phenol loss in the process of carrying out the phenol recovery, and then have influence on the quality of the ammonia be recovered to, reduce the biodegradability of waste water simultaneously; 3, carry out the recovery of ammonia after extraction, can be with problems such as ammonium salt crystallization occluding device, water tower side line entrapment solvent, solvent stripping tower overload operations in this process.Disclose a kind of double tower stripping and processed the method containing phenol, ammonia coal chemical industrial waste water in CN101289234A, yet it is not processed phenol, exist and still need other schemes to carry out phenol removal, and still fail to solve the residual higher phenomenon of ammonia for the concentrated and purification of ammonia; A kind of processing is disclosed in CN 101597124 B containing the method for phenol ammonia coal gasification waste water, wherein adopt to go out the diisopropyl ether effect of extracting not good, reclaims lower, and consumption greatly, price is higher; Therefore need to be a kind of effective, the extraction agent that cost performance is high.
Existence due to above problem, the technique that also there is no at present a kind of mature and reliable, stable operation, make most coal chemical industrial waste waters can meet continuously and stably the requirement of biochemical treatment after pretreatment, cause the still state in discharge beyond standards of a large amount of coal chemical industrial waste waters.
Summary of the invention
The invention provides a kind of ammonia, phenol and sour gas removed up hill and dale in waste water, and the processing that treatment effect is good, efficient and cost performance is high is containing the method for high-concentration phenol, ammonia sewage.
To achieve these goals, the technical solution adopted in the present invention: a kind of processing, containing the method for high-concentration phenol, ammonia sewage, is characterized in that carrying out according to the following steps:
(1) acid gas removal body: will from the water tower tower bottom, divide still liquid to enter in tower from the top of extracting tower as cold feed containing high phenol ammonia sewage as hot feed, the ratio of cold and hot two bursts of chargings be 1:2-1:6; Tower top pressure is 0.1-0.5MPa, temperature 20-35 ℃, and tower bottom pressure is 0.2-0.6MPa, temperature 80-110 ℃; Make sour gas put forward from overhead gas, and can enter according to the composition situation that sulfur recovery unit, torch burn or directly emptying, from extraction still liquid at the bottom of tower;
(2) deamination and ammoniacal liquor preparation: the tower reactor Produced Liquid of step (1) enters in deammoniation tower from middle and upper part, and tower top pressure is 0.25-0.6MPa, temperature 90-135 ℃, and tower bottom pressure is 0.8-1.2MPa, temperature 140-200 ℃; The deammoniation tower tower top is discharged to thick ammonia, and thick ammonia adopts the method for time condensation to be concentrated, and after time condensation, temperature is controlled at 50-60 ℃, enter two minutes phase separation tank and discharge the higher ammonia of concentration, this ammonia enters ammonia upgrading tower bottom, after being absorbed by process water, is prepared into ammoniacal liquor;
(3) extracting and dephenolizing:
A. pass through depickling, deamination, the pH value of still liquid detected 6.0~7.5, then still liquid is sent into and be take the extraction tower top that butylacetate is extraction agent and carry out counter-current extraction, keeping the extraction process service temperature is 30~70 ℃, the volume ratio of itself and waste water is 1:1~1:15, and the extraction phase that will be rich in phenol enters in solvent recovery tower;
B. when extraction phase enters solvent recovery tower, controlling the solvent recovery tower tower top pressure is 0.1~0.2 MPa, the solvent recovery tower tower top temperature is 90~120 ℃, the solvent recovery tower tower bottom pressure is 0.12~0.25 MPa, solvent recovery tower tower reactor temperature is 95~200 ℃, and reclaiming extraction agent by steam stripped mode, the extraction agent of recovery is sent into the solvent recovery tank recycle; And obtain the crude phenols product at the bottom of tower;
C. the waste water that contains extraction agent and micro-phenol after being extracted in extraction tower send water tower to reclaim extraction agent after preheating;
(4) recovery of Wastewater by Solvent Extraction agent
The extraction tower bottoms is after heat exchange at the bottom of preheater and water tower tower, enter the top of water tower, water tower tower top temperature 40-70 ℃, pressure 0.1-0.4MPa, column bottom temperature 110-130 ℃, pressure 0.15-0.45MPa, after rectifying, tower top is discharged extraction agent and is entered withdrawing can, is purified water at the bottom of tower, purifies waste water and sends to biochemical treatment through cooling rear portion; Another part enters extracting tower top as cold feed; It is heat source that the water tower tower bottom reboiler utilizes the thick ammonia of deammoniation tower tower top;
Described water tower adopts packing tower, the mixed structure tower that tray column or filler combine with tray column.
Adopt the reboiler heating at the bottom of described solvent recovery tower tower, heat source is steam;
Described solvent recovery tower is to adopt packing tower, the mixed structure tower that tray column or filler combine with tray column.
The equipment that the present invention adopts in described counter-current extraction method is: the pump of the mixer-settler of rotating disc contactor, packing tower, spray column, sieve-tray tower, oscillating screen plate tower, plural serial stage, plural serial stage-mixing tank multi-stage solvent extraction equipment.
The inventive method compared with prior art, has following advantage:
(1) the present invention adopts the extraction agent that butylacetate reclaims as phenol, in contrast China special 201210355982.7, uses Di Iso Propyl Ether to reclaim extraction agent as phenol, and the extraction agent in the present invention has higher advantage aspect market value.The extraction agent that uses hexone to reclaim as phenol in contrast Chinese patent 201210145137.7, the present invention uses butylacetate as novel extraction agent, the azeotropic point of hexone and water is 87.9 ℃, the azeotropic point of butylacetate and water is 90.7 ℃, and the solubleness of hexone is 1.6-2.0g/100ml, the solubility parameter of butylacetate be 0.83g/100ml be in the situation that in carrying out the process of solvent recuperation consumption of calorie be more or less the same, relatively little solubleness loss amount in whole production process is less, in removal process, energy consumption is lower.
(2) adopt Double-Tower Structure to make separation, layering is processed and is made separation more thorough, has reduced single tower and has separated halfway drawback;
(3) the present invention has realized mutual recovery and the utilization of links, makes in removal process, and least energy consumption obtains maximum output.
The accompanying drawing explanation
Fig. 1 is sewage treatment technology process schematic diagram of the present invention.
1, extracting tower; 2, deammoniation tower; 3, extraction tower; 4, water tower; 5, phenol tower; 6, extracting tower reboiler; 7, deammoniation tower reboiler; 8, water tower reboiler; 9, phenol tower reboiler; 10, a drainer; 11, time condensation tank; 12, solvent tank; 13, two minutes phase separation tank; 14, ammonia upgrading tower; 15, crude phenols product; 16, biochemical treatment; 17, newly add extraction agent.
Embodiment
The more detailed art treatment of the present invention is as follows: the sewage that is rich in high phenol ammonia that Coal Chemical Industry is obtained, as the hot feed of extracting tower 1, divide still liquid to enter in extracting tower 1 tower from the top of extracting tower 1 as cold feed water tower 4 tower bottoms; The ratio of cold and hot two bursts of chargings is 1:2-1:6; Extracting tower 1 pressure on top surface is 0.1-0.5MPa, temperature 20-35 ℃, and extracting tower 1 bottom pressure is 0.2-0.6MPa, temperature 80-110 ℃; Make sour gas put forward from extracting tower 1 overhead gas, and can enter sulfur recovery unit, torch burning or directly emptying according to the composition situation; From extraction still liquid at the bottom of thionizer 1 tower, and the middle and upper part by deammoniation tower 2 enters in tower by extraction still liquid, and deammoniation tower 2 tower top pressures are 0.25-0.6MPa, temperature 90-135 ℃, and deammoniation tower 2 tower bottom pressures are 0.8-1.2MPa, temperature 140-200 ℃; Deammoniation tower 2 tower tops are discharged thick ammonia, and thick ammonia adopts the method for time condensation to be concentrated, and in temperature after time condensation, is controlled at 60-80 ℃, enter two minutes phase separation tank 13 and discharge the higher ammonia of concentration, this ammonia enters ammonia upgrading tower 6 bottoms, after being absorbed by process water, is prepared into ammoniacal liquor; Deammoniation tower 2 tower reactors are discharged the sewage after deamination; To be detected through the waste water of depickling, deamination, and still liquid pH value detected 6.0~7.5; Then still liquid is sent into and be take extraction tower 3 tops that butylacetate is extraction agent and carry out counter-current extraction, keeping the extraction process service temperature is 30~70 ℃, and the volume ratio of itself and waste water is 1:1~1:15, and the extraction phase that will be rich in phenol enters in solvent recovery tower 5; When extraction phase enters solvent recovery tower 5, controlling solvent recovery tower 5 tower top pressures is 0.1~0.2 MPa, solvent recovery tower 5 tower top temperatures are 90~120 ℃, solvent recovery tower 5 tower bottom pressures are 0.12~0.25 MPa, solvent recovery tower 5 tower reactor temperature are 95~200 ℃, and reclaiming extraction agent by steam stripped mode, the extraction agent of recovery is sent into solvent recovery tank 12 recycles; And add new extraction agent 17, obtain crude phenols product 15 at the bottom of solvent recovery tower 5 towers; The waste water that contains extraction agent and micro-phenol after being extracted in extraction tower 3 send water tower 4 to reclaim extraction agent after preheating; By extraction tower 3 still liquid after heat exchange at the bottom of preheater and water tower 4 towers, enter the top of water tower 4, water tower 4 tower top temperature 40-70 ℃, pressure 0.1-0.4MPa, column bottom temperature 110-130 ℃, pressure 0.15-0.45MPa, after rectifying, discharge extraction agents and enter withdrawing can 12 at water tower 4 tower tops, at the bottom of water tower 4 towers, being purified water 16, purifying waste water and 16 through cooling rear portion, send to biochemical treatment; Another part enters extracting tower 1 top as cold feed; Realized the recycling of water resources, it is heat source that water tower 4 tower bottom reboilers 8 utilize the thick ammonia of deammoniation tower 2 tower top; Described water tower 4 adopts packing tower, the mixed structure tower that tray column or filler combine with tray column.
embodiment 1
Apply the device of above-mentioned processing containing phenol ammonia coal gasification waste water, the coal gasification wastewater total phenol content is 16522 mg/L, free ammonia 1334 mg/L, fixed ammonia 1451 mg/L, CO
21625 mg/L, the pH value is 7.8,75 ℃ of water temperatures, flow 55 t/h, processed by flow process shown in Fig. 1.Extraction tower adopts packing tower, and the backwater wastewater feed is than 1:4, the extraction agent butylacetate with wastewater volume than 1:8,29 ℃ of extracting tower tower top temperatures, pressure 0.3MPa, 90 ℃ of column bottom temperatures, pressure 0.35MPa, reflux ratio is 0.4.The deammoniation tower tower top pressure is 0.3MPa, 95 ℃ of temperature, tower bottom pressure 0.9MPa, 160 ℃ of temperature; Solvent recovery tower tower top pressure 0.15MPa, temperature 95 degree, column bottom temperature 0.20MPa, 120 ℃ of temperature, water tower adopts tray column, water tower tower top pressure 0.25 MPa, 55 ℃ of tower top temperatures, tower bottom pressure 0.27 MPa, 115 ℃ of column bottom temperatures.Total phenol content 352 mg/L in waste water after processing, free ammonia 20 mg/L, fixed ammonia 40 mg/L.In the refining rich ammonia of deammoniation, ammonia level is 96.7%, the carbonic acid gas trace, and hydrogen sulfide does not detect.
embodiment 2
Apply the device of above-mentioned processing containing phenol ammonia coal gasification waste water, the coal gasification wastewater total phenol content is 6510 mg/L, free ammonia 2130 mg/L, fixed ammonia 1640 mg/L, CO
25054 mg/L, the pH value is 8.4,78 ℃ of water temperatures, flow 47 t/h, processed by flow process shown in Fig. 1.
Extraction tower adopts packing tower, and the backwater wastewater feed is than 1:3.4, the extraction agent butylacetate with wastewater volume than 1:6,33 ℃ of extracting tower tower top temperatures, pressure 0.35MPa, 100 ℃ of column bottom temperatures, pressure 0.45MPa, reflux ratio is 1:3.5.The deammoniation tower tower top pressure is 0.45MPa, 125 ℃ of temperature, tower bottom pressure 1.1MPa, 150 ℃ of temperature; Solvent recovery tower tower top pressure 0.18MPa, temperature 105 degree, column bottom temperature 0.23MPa, 180 ℃ of temperature, water tower adopts tray column, water tower tower top pressure 0.24 MPa, 58 ℃ of tower top temperatures, tower bottom pressure 0.29 MPa, 130 ℃ of column bottom temperatures.Total phenol content 265 mg/L in waste water after processing, free ammonia 24mg/L, fixed ammonia 72 mg/L.In the refining rich ammonia of deammoniation, ammonia level is 95.6%, the carbonic acid gas trace, and hydrogen sulfide does not detect.
embodiment 3
Apply the device of above-mentioned processing containing phenol ammonia coal gasification waste water, the coal gasification wastewater total phenol content is 5520 mg/L, free ammonia 3310 mg/L, fixed ammonia 2620 mg/L, CO
25054 mg/L, the pH value is 8.8,83 ℃ of water temperatures, flow 70 t/h, processed by flow process shown in Fig. 1.
Extraction tower adopts packing tower, and the backwater wastewater feed is than 1:4.9, the extraction agent butylacetate with wastewater volume than 1:5,22 ℃ of extracting tower tower top temperatures, pressure 0.45MPa, 108 ℃ of column bottom temperatures, pressure 0.55MPa, reflux ratio is 1:3.8.The deammoniation tower tower top pressure is 0.28MPa, 130 ℃ of temperature, tower bottom pressure 1.15MPa, 190 ℃ of temperature; Solvent recovery tower tower top pressure 0.11MPa, temperature 115 degree, column bottom temperature 0.18MPa, 155 ℃ of temperature, water tower adopts tray column, water tower tower top pressure 0.22 MPa, 60 ℃ of tower top temperatures, tower bottom pressure 0.34 MPa, 122 ℃ of column bottom temperatures.Total phenol content 223 mg/L in waste water after processing, free ammonia 20 mg/L, fixed ammonia 70mg/L.In the refining rich ammonia of deammoniation, ammonia level is 96.3%, the carbonic acid gas trace, and hydrogen sulfide does not detect.
Claims (4)
1. a processing, containing the method for high-concentration phenol, ammonia sewage, is characterized in that: carry out according to the following steps:
(1) acid gas removal body: will from the water tower tower bottom, divide still liquid to enter in tower from the top of extracting tower as cold feed containing high phenol ammonia sewage as hot feed, the ratio of cold and hot two bursts of chargings be 1:2-1:6; Tower top pressure is 0.1-0.5MPa, temperature 20-35 ℃, and tower bottom pressure is 0.2-0.6MPa, temperature 80-110 ℃; Make sour gas put forward from overhead gas, and can enter according to the composition situation that sulfur recovery unit, torch burn or directly emptying, from extraction still liquid at the bottom of tower;
(2) deamination and ammoniacal liquor preparation: the tower reactor Produced Liquid of step (1) enters in deammoniation tower from middle and upper part, and tower top pressure is 0.25-0.6MPa, temperature 90-135 ℃, and tower bottom pressure is 0.8-1.2MPa, temperature 140-200 ℃; The deammoniation tower tower top is discharged to thick ammonia, and thick ammonia adopts the method for time condensation to be concentrated, and after time condensation, temperature is controlled at 50-60 ℃, enter two minutes phase separation tank and discharge the higher ammonia of concentration, this ammonia enters ammonia upgrading tower bottom, after being absorbed by process water, is prepared into ammoniacal liquor;
(3) extracting and dephenolizing:
A. pass through depickling, deamination, the pH value of still liquid detected 6.0~7.5, then still liquid is sent into and be take the extraction tower top that butylacetate is extraction agent and carry out counter-current extraction, keeping the extraction process service temperature is 30~70 ℃, the volume ratio of itself and waste water is 1:1~1:15, and the extraction phase that will be rich in phenol enters in solvent recovery tower;
B. when extraction phase enters solvent recovery tower, controlling the solvent recovery tower tower top pressure is 0.1~0.2 MPa, the solvent recovery tower tower top temperature is 90~120 ℃, the solvent recovery tower tower bottom pressure is 0.12~0.25 MPa, solvent recovery tower tower reactor temperature is 95~200 ℃, and reclaiming extraction agent by steam stripped mode, the extraction agent of recovery is sent into the solvent recovery tank recycle; And obtain the crude phenols product at the bottom of tower;
C. the waste water that contains extraction agent and micro-phenol after being extracted in extraction tower send water tower to reclaim extraction agent after preheating;
(4) recovery of Wastewater by Solvent Extraction agent
The extraction tower bottoms is after heat exchange at the bottom of preheater and water tower tower, enter the top of water tower, water tower tower top temperature 40-70 ℃, pressure 0.1-0.4MPa, column bottom temperature 110-130 ℃, pressure 0.15-0.45MPa, after rectifying, tower top is discharged extraction agent and is entered withdrawing can, is purified water at the bottom of tower, purifies waste water and sends to biochemical treatment through cooling rear portion; Another part enters extracting tower top as cold feed; It is heat source that the water tower tower bottom reboiler utilizes the thick ammonia of deammoniation tower tower top.
2. the method for processing high-concentration phenol according to claim 1, ammonia sewage, is characterized in that: described water tower employing packing tower, the mixed structure tower that tray column or filler combine with tray column.
3. the method for processing high-concentration phenol according to claim 1, ammonia sewage is characterized in that: adopt the reboiler heating at the bottom of described solvent recovery tower tower, heat source is steam.
4. the method for processing high-concentration phenol according to claim 1, ammonia sewage is characterized in that: described solvent recovery tower is to adopt packing tower, the mixed structure tower that tray column or filler combine with tray column.
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Cited By (5)
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| CN104743753A (en) * | 2015-04-16 | 2015-07-01 | 神华集团有限责任公司 | Treatment method of coal direct liquefaction wastewater |
| CN105668677A (en) * | 2014-11-17 | 2016-06-15 | 河南龙成煤高效技术应用有限公司 | Synergistic extracting agent for oil and phenol in waste water of coal chemical industry |
| CN107827315A (en) * | 2017-10-27 | 2018-03-23 | 陕西煤业化工集团神木天元化工有限公司 | Semi-coke wastewater processing method |
| CN113185049A (en) * | 2021-06-07 | 2021-07-30 | 天津同创恒泰科技有限公司 | High-concentration phenol-ammonia wastewater double-tower energy-saving treatment system and method |
| CN113213686A (en) * | 2021-06-07 | 2021-08-06 | 天津同创恒泰科技有限公司 | Single-tower treatment system and method for phenol ammonia sewage |
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